Category Archives: Video

Suberites suberea: Hermit Crab Sponge–The Race Rocks Taxonomy

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Suberites suberea is also known as Suberites ficus .This sponge begins its life by attaching to a mollusc shell. As it grows, it overtakes the shell and eventually dissolves it. A hermit crab (Pagurus sp.) is usually found in the cavity of the sponge, but the sponge is usually quite larger than the crab itself. The sponge is hard and rubbery in texture, and is dark orange in colour. It is Found all around the intertidal and shallow subtidal areas of Race Rocks.

Domain Eukarya
Kingdom Animalia
Phylum Porifera
Class Demospongiae
Order Hadromeridia
Family Suberitidae
Genus Suberites
Species suberea
Common Name: Hermit Crab Sponge

This file is provided as part of a collaborative effort by the students of Lester B. Pearson College Dec. 2002 Jana Morehouse Link to other sponge specimens from Race Rocks Link to the Race Rocks Taxonomy and Image gallery index

This file is provided as part of a collaborative effort by the students, faculty, staff and volunteers  of Lester B. Pearson College Dec. 2002 Jana Morehouse

 

Macrocystis integrifolia: Giant Kelp–The Race Rocks Taxonomy

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GF2014-11macroccystis

Macrocystis integrifoia photo by G.Fletcher

 


Macrocystis (Greek=Large bladder), the largest of all seaweeds, is represented by two species along the outer shores of British Columbia.
Macrocystis integrifolia is the most common species, distributed from Alaska to Monterrey, where it normally inhabits the lower intertidal and upper subtidal regions in areas subjected to moderate waves.
Description: This species of kelp forms extensive forests and is one of the largest and most complex algae. Floating at or near the sea surface, extensive masses of beds with rich-brown leaf-like blades 25 to 35 cm long by 5 cm wide.The blade or lamina is wrinkled or grooved in an irregular pattern and each is bouyed up at its origin by a small pneumatocyst. The blade edge is lined with toothlike projections.The terminal blade, located at the apex of the stipe, is split from the base with several new leaf-like branches in various stages of separation.(see photo above) The lamina of this kelp grow throughout the length of the stipe of the algae instead of only at the terminal region near the surface.Thus a dense forest is established which serves as a valuable habitat for many species of fish and invertebrates.

Habitat and Distribution:
Macrocystis integrifolia occurs in the very lowest portion of intertidal and in subtidal waters 7 to 10 m deep. It favors areas exposed to the open sea but somewhat sheltered from the full force of heavy wave action. It does not seem to grow in areas with salinity lower than that of the open coastal waters, so it is not found completely into the Strait of Juan de Fuca. The closest beds we know of to Race Rocks are at Sooke.

macrocystis-at-sookeThis video provides a good portrait of Macrocystis in a shallow habitat at Sooke BC

After the first large storms in October, Macrocystis will end up in tangled masses with Nereocystis on the beaches at Race Rocks and on other beaches on Southern Vancouver Island such as Taylor Beach.
Domain: Eukarya
Kingdom: Plantae
Division: Chromophyta
Class: Phaeophyceae
Order: Laminariales
Family: Lessoniaceae
Genus: Macrocystis
Species: integrifolia (Bory)
Common Name: Giant Kelp
Other Phaeophytes or Brown Algae at Race Rocks

taxonomyiconReturn to the Race Rocks Taxonomy and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams. Matthieu Bakhoun, PC yr 28

 

Ardea herodias: Great Blue Heron–The Race Rocks taxonomy

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Images for this slide show video were taken on the remote camera 5 by PB.

 

The great blue heron is a very widely spread bird throughout the American continent. During the breeding season it can be found in places such as Alaska and as far south as Mexico or the West Indies. In Winter, most blue herons leave Canada and go to the United States, or even places as Panama, Colombia and Venezuela. However, British Columbia seems to be an exception to this, and blue herons live there during the whole year. On the southern part of Vancouver Island, they are frequent residents in Pedder Bay and are often seen sitting out on the kelp at Rocky Point. Kelp provides shelter for a number of small fish such as herring and anchovie. Occasionally on calm days, we will see a heron standing and spearing fish from the Nereocystis (kelp) beds out at Race Rocks, so they become part of the top of the food web in the ecosystem.
Blue herons are the biggest type of heron. Adults can be over 1 meter tall, and they can have a 2 meter wing span. Their head is white with a black stripe on each side extending back from the eyes. Their back is blue and the breast is white streaked with black. In flight, the neck is doubled back and the head rests against the shoulders. Herons in their first year have grey crowns and grey wings.
Great blue herons feed mainly on very small fish, with no more then 7cm of length. Occasionally, they can feed on shellfish, insects, amphibians, reptiles, small birds and rodents.

Blue herons usually nest in forest areas, within a few kilometres from their main feeding area, in treetops. This is done in order to prevent the nest from being reached by land predators. During the spring, when both males and females arrive for nesting, males occupy old nests or branches and prepare to defend their territory. In the presence of females, they emit very loud shrieks. Two year old males are the most likely to mate immediately. The closest possible nesting area to Race Rocks is Rocky Point.
After mating, males gather construction materials to build a new nest, and together with the female, they build it in about one week. By April, each female then lays three to five eggs, which she incubates during the night, while the male incubates them during the day.

After hatching, young herons are fed by their parents, who regurgitate predigested food. If supplies are not enough. Only the strongest will survive. The weaker offspring end up being pushed out of the nest by the strongest, and they eventually starve. The survivors grow very quickly. Eight weeks after they’re born they can already fly clumsily, and at the age of ten weeks they leave the nest and become independent. An average of two or three chicks results from each breeding cycle of the blue heron
Great blue herons are a very sociable species. They organize in colonies for breeding, feeding and protection from predators.
These birds live as long as 17 years. They have very few natural predators. Draining marshes and destroying common food sites are the greatest threat to the population of great blue herons. However, the mortality among young birds is high. The eggs are often preyed upon by crows, ravens, eagles and raccoons. In ictoria, nesting colonies have moved due to continula predation by bald eagles. Shortage of food is also a common death factor among youngsters. Although contamination by chemicals seems to interfere with the reproductive system, it is not yet proven that it has a direct impact on overall population levels.
Reference: Hinterland Who’s Who?
Domain Eukarya
Kingdom Animalia
Phylum Chordata
SubphylumVertebrata
Class Aves
Order Ciconiiformes
Family Ardeidae
Genus Ardea
Species herodias
Common Name: Great Blue Heron

 

 

Other Members of the Class Aves at Race Rocks.
taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams. March 8 2009- Pam Birley

Hippasteria spinosa:The Spiny Sea star–The Race Rocks taxonomy

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Spiny Stars are rarely seen by divers at Race Rocks. Ryan demonstrates one to the Colwood Elementary a school class

Description:

The Hippasteria spinosa is an uncommon, 5 armed, aboral surfaced sea star. Its most marginal plates have 2 spines and it has some conspicuous bivalved pedicellariae.

Its colour is orange to vermillion, which intensifies at the short, stalky arms (R/r=1.7 to 2.6) and becomes whiter near the mouth. Usually in the subtidal region at depths of 100 to 500 metres, it can sometimes be found on the beach. It is characterized by having all its plates covered with granules, giving it a spiny, STELLATE look.The mouth has 4 or 5 marginal spines and a slightly wider than high mouth (elipsis shape).

Habitat and region

Can be found from Kodiak Island to Southern of California and the Sea of Okhotsk and is more common around the west coast of Vancouver Island and other exposed coastal parts. It prefers muddy, shallow environments and can also be found in shell and rock.

References:
Taxonomy: Marine Invertebrates of the Pacific Northwest; Kozloff, Eugene, University of Washington Press, 1996 Edition, USA

 

Arenaria melanocephala: Black Turnstone–The Race Rocks Taxonomy

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black-turnstone

Ryan took this image in January 2009. At that time of year there were over a dozen turnstones foraging across the island.

 

The Black Turnstone breeds in Western and Southern Alaska on the coastal plain. It winters only on the Pacific coast, from southeast Alaska to central Mexico. It is the most abundant shorebird of rocky shorelines. Favourite habitats include reefs, rocky beaches, jetties, and gravel bars at the mouths of rivers or along lagoons. It may also forage on adjacent mudflats wet sandy beaches, floating kelp beds, and piles of washed-up seaweed. Black Turnstones have been recorded roosting on dry rocks, jetties, and floating log booms at which time they may gather into extremely dense flocks.
It is widely distributed along the inner and outer coast. Its distribution is largely restricted to rocky coastal shorelines, but it frequents many fiords and protected inlets. It is a vagrant in the interior. The Black Turnstone usually occurs in flocks of 10 to 30 birds at Race Rocks where it overwinters.


This slide show shows the Black Turnstone being part of the Food Web at Race Rocks providing  energy for the Peregrine falcon!

Reference used:http://rbcm1.rbcm.gov.bc.ca/nh_papers/gracebell/english/b_turnst.htm

Below are the records for population numbers of Black Turnstones observed in the Christmas Bird Counts.
Domain Eukarya
Kingdom Animalia
Phylum Chordata
Subphylum Vertebrata
Class Aves
Order Charadriiformes
Family Scolopacidae
Genus Arenaria
Species melanocephala
Common Name: Black Turnstone

Other Members of the Class Aves at Race Rocks.

taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams.
Angela Chaisson, PC yr 28

 

Sea pen: Ptilosarcus gurneyi-The Race Rocks Taxonomy

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(Ed Note: The scientific name at the start of the video is not correct.) The sea pen, Ptilosarcus gurneyi, is a colonial cnidarian in the same class as the anemone, the anthozoa. One polyp has been modified to form the body,  while the fringes of the “feather” contain numerous small feeding polyps. Typically we find it living in a mud/sand substrate. It is rare around Race Rocks. The only population we have found is this one with a few individuals occurring at 15 metres on the North-West corner of Great Race Island. Note the small burrowing tubeworms in the mud around the organism. This specimen was videoed by Wynne Lawrence and Jean-Olivier Dalphond, both students at the Lester B. Pearson College.

General Description:

The sea pen, Ptilosarcus gurneyi, is a colonial cnidaria in the same class as the anemone, the anthozoa. One polyp has been modified to form the body while the fringes of the “feather” contain numerous small feeding polyps.

Habital:

Sea pens are marine organisms: typically they are found living in a mud/sand substrate at least 3 inches (7.6 cm) deep. It is rare around Race Rocks, with a few individuals occuring on the North-West corner of Great Race Island. Note the small burrowing tubeworms in the mud around the organism.

Feeding:

The polyps feed on detritus, zooplankton (baby artemia), and possibly (according to The Reef Aquarium Vol. Two) phytoplankton.You should offer your Sea Pen Artemia nauplii, Daphnia, pulverized flake food, and detritus stirred up from the bottom of the tank.

Predator:

Predators of the sea pen are two nudibranchs, one the very large 3 inches(7cm) nudibranch, Armina californica and the other Mediaster aequalis, Rose Star Crossaster papposus and the Leather Star Dermasterras imbriacata.

Reproduction:

We don’t know the reproduction of sea pens whether by sexual or asexual means.

References:
http://www.fishroom.com/library/seapen.html
http://www.lanecc.edu/science/zonation/seapen.htm

Kingdom: Animalia
Phylum: Cnidaria
Class: Anthozoa
Subclass: Octocorallia
Order: Pennatulacea Verrill, 1865
Suborder :Subsessiliflorae
Family :Pennatulidae Ehrenberg, 1834
Genus:Ptilosarcus
species:gurneyi
(Ptilosarcus gurneyi)
Common name: orange sea pen

Return to the Race Rocks Taxonomy and Image Gallery

Other Members of the Class Anthozoa at Race Rocks.

 

taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams. 

Original: Dec 2002, Joshua Columbus ( Burma) year PC yr 29).  

additions by G.Fletcher 2018

 

Wave watching Day

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Good morning
WEATHER: Sky Overcast »» Vis. 5 Miles »» Wind North-East 7 Knots »» Sea Choppy/Rough
Good Evening
TEMPERATURE: Max. 9.1 ºC »» Min. 7.1 ºC »» Reset 8.0 ºC »» Rain 9.0 mm Today the blasting is over. We will finish editing the footage and it will appear on the website shortly. We have had some impresseive looking waves crashing on the rocks today, and they have been scaring the birds from their resting places.
posted by Race Rocks Relief at 1:16 PM

A Video made by the students this week:

http://www.racerocks.com/racerock/archives/viddailyduties.htm

Tidal Cycle at Race Rocks Video

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 This clip was produced on 8.11.2002. As Race Rocks Marine Protected Area is a place where large (3 meter) tidal range occurs, it is a good location to observe the raising and lowering of the water . A rock in Race Passage near the West shore of Great Race Rock was chosen and a camera was installed in front of the window of the research room in the Marine Science Centre. Video clips were taken for 15 seconds every hour of daylight, high tide occurred during noontime. The second part of the clip shows the tide going in fast motion, a day at the rock passes in 25 seconds.” Jeremias Prassti, ( PC yr 28)

From Victoria Tide tables for this date.. 8.11.2002. :

time… tidal height (ft)………….(meters)
0910 …………………..8.9……………..2.7
1100………………….. 8.5……………..2.6
1445………………….. 9.2……………..2.8
2345………………….. 1.0………………0.3

PROJECT IDEA:
1. On graph paper, using the data above, plot the tidal variation for the day. Then pause the video on each of the levels, measure the height of an exposed piece of the rock and then plot it on the graph. In this way you should be able to determine the elevation of the top of the rock.

2. Link to the physical factor page for Race Rocks – Go to the Tidal calculator links available and compare the shape of the graph for November 8, 2002 with the graph you have made here

DND Blasting disturbs sea lions.

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On November 7, 2002, the DND were still doing their demolition blasting exercises at Bentinck Island. (not Oct 7 as stated in this draft version of the video) The students from Lester Pearson College who were out for a project week were able to catch the images of the impact of these blasts on the first day from the science centre window and on the second day from the top of the light tower. In the tower, they interviewed Mike Demarchi of LGL who is currently doing a $50,000 contract for the Department of National Defence to monitor the impact of these blasts and to compare them with other disturbances at Race Rocks. (Click on audio icon below) Click the arrow on the left in the bar below for
THE INTERVIEW WITH MIKE DEMARCHI
by Jeremias Prassl (LBPC yr29)


Before and After images of DND Blasting effects

You may see the complete report here. Note in particular, the discussion of the results concerning the effects of blasting on the behaviour of sea lions.

Sealions still scared off by DND blasting

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Good Evening
TEMPERATURE: Max. 8.0 ºC »» Min. 4.9 ºC »» Reset 7.1 ºC
MARINE LIFE: Still large numbers of sea birds but the fish balls are fewer and less frequent. Did see a Harbour seal catch a fairly large salmon along the dock on the west side. The activity attracted a hundred or more gulls,some we lucky and flew off with nice pink chunks of fish. The seal made short work of the salmon then hauled out on one of the flat rocks to rest and digest it’s meal.The number of Sea lions hauled out is down dramatically although the conditions are very good, lots of food and calm weather. The one major problem is the effect of the blasting.These animals were getting used to the boat and people traffic but are now very stressed and spook very easily. So much for referring to this MPA as a wildlife refuge where the animals can expect to hunt, feed, communicate, socialize, rest etc. without disturbanceand interference.
HUMAN INTERACTION: There were 6 Ecotour boats and 4 pleasurecraft. The station boat made a trip to Pedder Bay and back
posted by Carol or Mike S at 6:34 PM